Title page for ETD etd-08082009-204852

Type of Document Dissertation
Author Mweetwa, Alice Mutiti
URN etd-08082009-204852
Title Biosynthesis of Steroidal Glycoakaloids in Solanum chacoense Bitter
Degree PhD
Department Horticulture
Advisory Committee
Advisor Name Title
James G. Tokuhisa Committee Chair
Flinn, Barry S. Committee Member
John Jelesko Committee Member
Richard E. Veilleux Committee Member
Shang, Chao Committee Member
  • squalene synthase
  • solanine
  • chaconine
  • wild potota species
  • secondary metabolities
  • solanidine
Date of Defense 2009-07-24
Availability unrestricted
Steroidal glycoalkaloids (SGAs) are secondary metabolites produced by approximately 350 species in the Solanaceae family. SGAs are reported to be important for pest resistance and flavor enhancement at low concentrations but are toxic to humans and other mammals at high concentrations. Studies on sterol / SGA biosynthesis have implicated squalene synthase as a key regulatory enzyme because it catalyzes an irreversible step from the mevalonic acid pathway. However, the regulatory mechanisms of squalene synthase are not yet known. A study was conducted to elucidate the distribution pattern of SGAs and to clone the squalene synthase gene in order to determine a relationship between SGAs and gene expression levels. Solanum chacoense, a wild potato species was used as a model plant from which tissues were harvested at specified developmental stages and analyzed for SGA content. The results from the SGA analysis suggest a qualitative and quantitative tissue- and age-dependent accumulation of SGAs. Regenerative tissues such as, axiliary shoots, flowers and floral buds had the highest levels of 88, 49 and 63 µmole/g DW, respectively. The roots, stems and tubers showed the lowest amounts of SGAs of 1 to 8, 5 to 15 and 7 to 15 µmole/g DW, respectively. Stolons and tubers accumulated higher amounts of α-chaconine (59 to 67%) than α-solanine (61 to 64%) at all developmental stages analyzed. On the other hand, in young expanding, fully expanded, and old senescing leaves where leptine and leptinines tend to dominate, α-solanine and α-chaconine together accounted for only 8 to 15%, 7 to 15%, and 8 to 45%, respectively. Plant organs that showed the highest biosynthetic activity for SGA production also had high levels of transcripts coding for genes of isoprenoid biosynthesis. The results from the cloning and characterization of squalene synthase suggest that the cloned cDNA fragment is a putative S. chacoense squalene synthase gene with an open reading frame / predicted protein precursor of 411 amino acids. The cloned cDNA has high similarity (68-100%) to known plant squalene synthase genes and contains six deduced peptide domains observed in other species. The 3’ untranslated regions of floral buds, young leaves (early vegetative stage), and fully expanded leaves (anthesis) were different in length with, 249, 335, and 202 nucleotides, respectively. The Southern blot analysis suggests a single copy gene although the existence of a gene family cannot be ruled out.
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